A satellite moves at constant speed in a circular orbit about the center of earth and near the surface of the earth. If its acceleration is 9.80 m/s^2, fins (a) its speed, and (b) the time for one complete revolution.
A satellite moves at constant speed in a circular orbit about the center of earth and...
A satellite of Earth is moving in a circular orbit with Earth at its center, at a constant speed of 2.00 km/s. a.) How high is the satellite above the surface of the Earth? b.) How long does it take for the satellite to complete one revolution? Helpful info (but not all of it is relevant!): universal gravitational constant G is = 6.674 x 10^-11 m^3/kg s^2 (units may also be expressed as N m^2/kg^2) Mass of Sun = 1.989...
A particular satellite was placed in a circular orbit about 247 mi above Earth. (a) Determine the orbital speed of the satellite. m/s (b) Determine the time required for one complete revolution. min
A particular satellite was placed in a circular orbit about 163 mi above Earth. (a) Determine the orbital speed of the satellite. m/s (b) Determine the time required for one complete revolution. min 1024 kg.) An artificial satellite circling the Earth completes each orbit in 119 minutes. (The radius of the Earth is 6.38 x 106 m. The mass of the Earth is 5.98 (a) Find the altitude of the satellite. m (b) What is the value of g at...
A satellite moves in a circular orbit around Earth at a speed of 5227 m/s. (a) Determine the satellite's altitude above the surface of Earth. Incorrect: Your answer is incorrect. Your response differs from the correct answer by more than 10%. Double check your calculations. m (b) Determine the period of the satellite's orbit.
10-3. A 639-kg satellite is in a circular orbit about Earth at a height h = 1.16 x 10^7 m above the Earth’s surface. Find (a) the gravitational force (N) acting on the satellite, (b) the satellite’s speed (m/s) (magnitude of its velocity, not its angular velocity), and (c) the period (h) of its revolution. Caution: The radius of the satellite’s orbit is not just its height above the Earth’s surface. It also includes the radius of the Earth. The...
A 544-kg satellite is in a circular orbit about Earth at a height above Earth equal to Earth's mean radius. (a) Find the satellite's orbital speed. m/s (b) Find the period of its revolution. (c) Find the gravitational force acting on it A satellite of Mars, called Phobos, has an orbital radius of 9.4 x 106 m and a period of 2.8 104 s. Assuming the orbit is circular, determine the mass of Mars. x 10 s. Assuming kg
A 534-kg satellite is in a circular orbit about Earth at a height above Earth equal to Earth's mean radius. (a) Find the satellite's orbital speed. m/s (b) Find the period of its revolution. h (c) Find the gravitational force acting on it. N
A 607-kg satellite is in a circular orbit about Earth at a height above Earth equal to Earth's mean radius. (a) Find the satellite's orbital speed. m/s (b) Find the period of its revolution. h (c) Find the gravitational force acting on it. N
A satellite is in a circular orbit around the Earth at an altitude of 3.58 x 100 m. (a) Find the period of the orbit. (b) Find the speed of the satellite. km/s (c) Find the acceleration of the satellite. m/s toward the center of the Earth
A satellite is in a circular orbit around the Earth at an altitude of 2.76x10^6 m. (a).Find the period of the orbit.----h. (b). Find the speed of the satellite. -----km/s. (c). Find the acceleration of the satellite----m/s^2 toward the center of the Earth.